pedot

The progress on the application of PEDOT in these areas was briefly reviewed .

本文简要综述PEDOT在这些领域的应用进展情况。

The Synthesis of PEDOT / PSS and Its Application in Antistatic Coating

PEDOT/PSS的合成及在抗静电涂料中的应用

Preparation and Characterization of Nano-Silver Particles by Conductive Polymers PEDOT / PSS Protection Method

导电高分子PEDOT/PSS保护银纳米颗粒的制备与表征

Preparation of PEDOT : PSS-C composite film counter electrode on the flexible substrate

柔性基底上PEDOT：PSS-C复合薄膜对电极的制备

We printed the PEDOT / PSS , and test the resistance under the different width , length and temperature of the lines .

并且测试了PEDOT/PSS线条在不同线宽、温度、长度下的电阻，反映了器件电极材料的性能。

Poly ( 3,4-ethylenedioxythiophene ( PEDOT ) shows large pseudo-capacitance , high conductivity , good thermal stability and other excellent features .

聚二氧乙基噻吩（PEDOT）不仅能产生较大的赝电容，而且具有高电导率、良好的光热稳定性等优良特性。

Secondly , a PEDOT : PSS layer is introduced . The characteristics of the cells , especially the short circuit current density are improved a lot .

其次，在阳极界面处引入PEDOT：PSS修饰层，器件的光照特性，特别是短路电流密度得到了大幅度的提高。

At present , few successful synthesis in the electromagnetic composite materials with PEDOT / PSS and nano-magnetic iron oxide composite materials was reported .

目前，在已成功合成的电磁复合材料中有关PEDOT/PSS和纳米四氧化三铁的电磁复合材料的报道较少。

By adding materials such as DMSO and isopropyl alcohol , the quality of the film and conductive properties of PEDOT : PSS electrode were improved .

通过添加DMSO和异丙醇等材料，改善了PEDOT：PSS电极的薄膜质量和导电性能。

The degradation of poly ( 3,4-ethylenedioxythiophene ) ( PEDOT ) films at an anode in an aqueous solution has been systemically studied .

研究了聚乙撑二氧噻吩（PEDOT）膜在水溶液中的阳极降解过程。

Therefore , we use graphene oxide ( GO ) as the anode interfacial layer ( also called hole transport layer , HTL ) to replace PEDOT : PSS .

于是，我们采用石墨烯氧化物（GO）作为阳极修饰层（或称为空穴传输层，HTL）来代替PEDOT：PSS。

PEDOT : PSS ( P VP4083 ) improved the holes gathering capabilities and the critical breakdown voltage of the device as a modified material for the anode .

同时研究了以PEDOT：PSS（PVP4083）作为阳极修饰材料对于电极的空穴收集能力以及器件的临界击穿电压的影响。

The kinetics of preparing poly ( 3,4-ethylenedioxythiophene )( PEDOT ), by in-situ chemical synthesis in restricted condition at three different temperature of 45,65 and 85 ℃, were studied using UV-vis spectrum .

利用紫外-可见光谱，分别研究了3,4-乙撑二氧噻吩在45、65和85℃条件下的原位化学氧化受限聚合动力学规律。

So their applications are very extensive . Poly ( 3,4-ethylenedioxythiophene )( PEDOT ) because of its high light transmittance , highconductivity , excellent thermal stability , have been widespread attention .

其中，聚（3,4-乙烯二氧噻吩）（PEDOT）由于其高光透过率、高电导率和高热稳定性等优点而备受关注。

So we fabricate the LEC of which the work function is not important . 3 : We fabricate organic light emitting electrochemical cell ( LEC ) using the PEDOT : PSS electrode .

基于这种原因我们又制作了对电极的功函数要求不高的OLEC器件。3：以PEDOT：PSS为电极制备了有机发光电化学池（LEC）。

Poly ( 3,4-ethylenedioxythiophene )( PEDOT ) is one of the most successfully studied and widely used conductive polymers because of its high conductivity , excellent environmental stability , non-toxic advantage and high transparency in thin films .

聚（3,4-乙撑二氧噻吩）（PEDOT）由于具有较高的电导率、较好的环境稳定性、无毒的优势和薄膜对可见光的高透过率而成为目前研究最深入、应用最广泛的导电聚合物之一。

Poly ( 3,4-ethylenedioxythiophene ) ( PEDOT ) was successfully synthesized in aqueous system by an acid doping method . The molecular structures of the products were approved by Fourier Transform Infrared ( FTIR ) Spectrums .

通过酸掺杂方法，成功地在水体系中合成出了聚乙撑二氧噻吩，并用傅立叶变换红外光谱证明了产物的分子结构。

Spectral redshift and line-narrowing of polymer MEH-PPV was realized based on multilayer device of ITO / PEDOT / P-PPV / MEH-PPV / PFO / Ba / Al .

研制了一种基于ITO/PEDOT/P-PPV/MEH-PPV/PFO/Ba/Al的多层结构器件，实现MEH-PPV发光峰的窄化和红移。

The main contents are as follows . ( 1 ) Graphene oxide / PEDOT ( GEO / PEDOT ) was prepared by in situ polymerization in acetonitrile , then was reduced to GE / PEDOT composite .

具体内容如下：（1）在乙腈体系中，采用原位聚合法合成了氧化石墨烯（GEO）/PEDOT复合物，之后再对GEO/PEDOT进行还原，即得GE/PEDOT复合产物。

PEDOT : PSS can form transparent films with high electrical conductivity on glass or plastic surface , which expands the application of PEDOT : PSS material , including in the organic solar cells , electroluminescent display , super capacitors and other electronic devices .

PEDOT：PSS材料在有机太阳能电池、有机电致显示、超级电容器等电子器件中有广泛的应用。